An experiment that characterizes a single meta-atom pillar under local phase approximation (LPA). Establishes the relationship between meta-atom geometry and phase delay.
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Updated
Jul 17, 2024 - Python
An experiment that characterizes a single meta-atom pillar under local phase approximation (LPA). Establishes the relationship between meta-atom geometry and phase delay.
Fast, efficient calculations for radially polarized filed distribution in c++
Characterization of a single meta-atom pillar under local phase approximation demonstrating high transmission and linear phase shift.
Builds a custom dataset of 3x3 meta-atom pillars using MIT's electromagnetic simulation software, meep.
Simulation of reflection and refraction of polarized opticial beams at plane and curved dielectric interfaces.
Scripts to compute field enhancements of plasmonic nanostrucutres, mirrored from https://gitlab.com/theoretical-chemistry-jena/quantum-dynamics/plasmonic-meep/
Free and open-source code package designed to perform PyMEEP FDTD simulations applied to Plasmonics (UBA+CONICET) [Buenos Aires, Argentina]
Kubernetes Intro to Advanced Workshop
Robust compilation procedure of latest MEEP and python-meep on Linux
Helpful Tricks for Running Meep (and other) Simulations Effectively
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